Anti-allergic pharmaceutical composition containing at least one allergen and at least one antihistamine compound

ABSTRACT

The present invention relates to an anti-allergic pharmaceutical composition containing at least two active agents chosen among: (i) one allergen, (ii) one antihistamine compound, (iii) one inhibitor of histamine synthesis, said active agents being associated in said composition with a pharmaceutically acceptable vehicle.

[0001] The present invention relates to new pharmaceutical compositions for the prevention and treatment of allergies. Allergies are a scourge which affects 25% of the world's population. This number is on the increase in connection with growing environmental toxicity (dust, food, motor vehicles). In addition, a person's risk of suffering from allergy is increased if there is a previous family history of allergy.

[0002] The biological mechanism of allergies may be described as an abnormally amplified reaction to the entry of an allergen into the body. The following events account for the reaction:

[0003] identification of the allergen by the body,

[0004] secretion of cytokines in response to allergen penetration,

[0005] conversion of Th1 cells into Th2 cells, with the production of clones specific to the antigen,

[0006] the Th2 cells synthesize interleukins 4 and 13, responsible for aggravation of the allergic symptoms through an upsurge in IgE synthesis

[0007] the terminal phase of the reaction is the release of histamine and serotonin having a recruiting effect on the Th2 clones.

[0008] toxic and inflammatory self-maintaining reaction, even without any antigen stimulation.

[0009] The antigen-presenting cells (APCs: macrophages, dendritic cells, B-lymphocytes) take part in the reaction of hypersensitivity through basic cell cooperation carrying the immune reaction further. Allergies belong to the nonself class of defence mechanisms. The main allergens are acarids (dust mites) (80%) and pollens (20%).

[0010] The self-stimulating reactions of specific APC clones have an effect on the general rate of release of histamine and serotonin leading to an aggravation of the general clinical symptomatology.

[0011] The recruitment level of new Ige-secreting cells is thereby increased facilitating the explosion of clinical signs when a new allergen penetrates inside the body. This can be seen in atopic persons in whom allergic reactions are severe owing to the high level of Th2 clones promoting the synthesis of IgE.

[0012] The general reaction observed subsequent to the penetration of the new allergen is not due to its toxicity but simply to the fact that the triggering level of allergic phenomena is very low, helped by other sensitisations.

[0013] An allergy is a reaction due to hypersynthesis of IgE immunoglobulins. The inflammatory reaction chiefly affects the respiratory and ENT spheres, with pathological focalisation at the nose, lungs and skin. Pathologies associated with the allergy are invalidating and suffer from the lack of efficacy of conventional treatment. There is no preventive strategy and curative means are insufficient or ill used.

[0014] The usual treatment of allergic disease consists, during a first phase, of identifying the allergen responsible: dust mites, pollen, mould, food. The second phase comprises removal measures. The third phase treatment phase focuses on the target organ which appears to be symptomatic: ENT treatment for rhinitis, anti-asthmatic treatment if the affected sphere is respiratory, dermatological treatment if the affected areas are skin areas.

[0015] In the event of failure of the preceding measures, individual or complementary treatment may be offered through the choice of a specific immunotherapy (specific pollen, specific acarid, specific mould). The complexity of the treatment instituted makes it difficult to follow. A succession of treatments is a patent factor of failure.

[0016] The purpose of the present invention is precisely to offer new means of treating allergies that are both preventive and curative.

[0017] This purpose is achieved by treating the two main sides of the immune reaction:

[0018] firstly the upstream part of the immune response which, after presenting the antigen to the APCs leads to increased synthesis of the IgEs responsible for the self-recruiting of the immunity cells, and

[0019] secondly, the downstream side of the immune response which leads to release of the preformed mediators, essentially histamine, responsible for the final clinical outcome.

[0020] The optional combined use of an inhibitor of histamine synthesis makes it possible to reduce the concentration of the latter and therefore to improve the therapeutic efficacy of the pharmaceutical composition according to the invention.

[0021] The present invention concerns a anti-allergic pharmaceutical composition containing at least two active agents chosen among: (i) one allergen, (ii) one antihistamine compound, (iii) one inhibitor of histamine synthesis, said active agents being associated in said composition with a pharmaceutically acceptable vehicle.

[0022] Consequently, the subject of the invention is more particularly an anti-allergic pharmaceutical composition containing (i) at least one allergen and (ii) at least one antihistamine compound, and optionally (iii) at least one inhibitor of histamine synthesis, in a pharmaceutically acceptable vehicle.

[0023] A first preferred form of anti-allergic pharmaceutical composition according to the invention contains (i) at least one allergen and (ii) at least one antihistamine compound, in a pharmaceutically acceptable vehicle, enabling release of the peptides and other chemical substances in independent manner at galenic level.

[0024] Advantageously, said allergen is chosen from among the major antigens or mixture of major antigens of acarids able to induce an immune reaction. Indeed, the research conducted within the scope of the invention consisted of using ubiquitous antigens of acarids. These antigens are present in substantial quantity in the environment and are the cause of the development of allergic reactions in the world. Two acarids, D. Pteronyssinus (DP) and D. Farinae (DF) are the most represented in the world environment.

[0025] The invention most particularly gives consideration to a cystine protease as allergen, the carrier of antigenicity which is 90% identical for these two acarids. The epigenic and amino acid sequences of the cystine protease of D. Pteronyssinus (DP) are shown in the list of appended sequences given respectively under numbers SEQ ID NO: 1 and SEQ ID NO: 2.

[0026] The allergens used in the compositions of the invention may either be extracts obtained from crude biological material, or wholly or partly purified proteins optionally produced by genetic engineering or by peptide synthesis.

[0027] Therefore the invention further concerns as allergen the peptide epitopes of cystine protease. Three epitopic parts have been identified which form triggering agents for the immune response. These are the three peptides with the following sequences: RMQGGCGSCN (SEQ ID NO:3) QPNYHAVNIV (SEQ ID NO:4) WTVRNSWDT (SEQ ID NO:5)

[0028] and their possible analogues.

[0029] The sequences of the protein epitopes cited above may contain primers and supplementary amino acid sequences or substitutions facilitating their adhesion to the Major Histocompatibility Complex (MHC).

[0030] The invention gives special consideration to pharmaceutical compositions containing at least one of these peptides as allergen.

[0031] These peptide epitopes are strictly identical in DF and DP, and in other acarids since they are carriers of the enzyme function of cystine protease. Their lipophilia and the fact that they tolerate the enzyme function, account for the fact that these epitope parts are constant from one species of acarid to another and that they are the site of a general immune response.

[0032] The use of these parts, either in the form of cycled proteins, or in epigenic form, even in their RNA form, must induce tolerance to the natural antigen and reduce the general level of the immune response upstream.

[0033] Cyclising the epitopes and/or inclusion of the epigenic patterns in a longer sequence makes it possible to improve the presenting of the antigens to the T-lymphocytes. This improved presentation will allow presentation of the antigens and epitopes to the MHC and thereby trigger the immune tolerance response. The antigens must previously be rearranged by the APCs. The simple epitopic form does not allow rearrangement by the APCs since, as a general rule, only a protein longer than 10 amino acids may be cut and presented by the APCs to the T-lymphocytes.

[0034] These peptides may be associated with any pharmaceutically acceptable vector, of phospholipid type for example.

[0035] If epigens are involved, the latter may be primed by the following nucleotide sequence: 5′GCGGCGGCG 3′ (SEQ ID NO: 6).

[0036] The controlled reaction of the TH2/TH1 switch induced by this protein or its epigen may also be achieved using other methods, in particular with the nucleotide primers according to the following sequence 5′TGAGCGGCGGCG 3′ (SEQ ID NO: 7), and using any other method allowing upstream control of the TH2/TH1 switch.

[0037] It is therefore possible to integrate the epigens corresponding to the epitopes of DP/DF with a nucleotide primer sequence of sequence (SEQ ID NO: 7)by alternating said sequence (SEQ ID NO: 7) and an epitope such as to integrate the three major epitopes of DP/DF either together or separately.

[0038] The integration of the epitopes together leads to obtaining a group made up of a nucleotide primer sequence (SEQ ID NO: 7) a first major epitope, a nucleotide primer sequence (SEQ ID NO: 7), a second major epitope, a nucleotide primer sequence (SEQ ID NO: 7), a third major epitope.

[0039] The integration of epitopes separately leads to mixing three groups each made up of a nucleotide primer sequence (SEQ ID NO: 7) and a major epitope. This integration of the epitopes with a nucleotide primer sequence according to the following sequence (SEQ ID NO: 7) must improve the efficacy with which the DP/DF epigens are presented to the T-lymphocytes. With this improved presentation, the DP/DF epigens will stimulate the TH1 switch and therefore reduce the level of the allergic response.

[0040] The use firstly of these epitopes, or of a solution enabling the TH1/TH2 switch such as the nucleotide primers of sequence (SEQ ID NO: 7), and secondly their association with an antihistamine compound and optionally with an inhibitor of histamine synthesis provide an efficient, innovative solution for the prevention and treatment of allergies.

[0041] Consequently, the compositions of the invention comprise an efficient quantity of at least one allergen such as defined above without predicting the role of this allergen in the patient's symptomatology.

[0042] With this approach it is possible to have global access to the allergic illness without giving consideration to the specificity of the allergen. Indeed with the composition of the invention it is possible to treat a level of immune reactivity and not to propose a specific immunotherapy.

[0043] The use of the allergen, under the different forms described above, in the compositions of the invention means that it is possible to induce tolerance to the natural antigen and to reduce the general level of immune response upstream. However, as mentioned previously, the allergen cannot alone cure the allergy since the toxic, inflammatory terminal reaction subsists which is self-maintaining without antigen stimulation. This reaction must also be treated by blocking the terminal phase of the allergy. Blocking the histamine receptors is the main effector mechanism. This blocking must be made over a time interval that is sufficiently long for there to be a negative feedback on the synthesis of these receptors. Antihistamines are anti-receptor molecules of choice to block this terminal reaction. Therefore, the compositions of the invention, in addition to the allergen, contain an antihistamine compound and optionally an inhibitor of histamine synthesis.

[0044] As antihistamine compounds, mention may be made of: brompheniramine, cetirizine, fexofenadine, cyproheptadine, dexchlorpheniramine, hydroxizine, ketotifene, loratidine, mequitazine, oxotomide, mizolastine, ebastine, astemizole, carbinoxamide, alimemazine, buclizine, cyclizine hydrochlorate, doxylamine.

[0045] As indicated above, the allergy is also accompanied by increased synthesis of histamine, which also causes self-maintaining of the terminal inflammatory reaction. This histamine synthesis may possibly be controlled, in order to improve the efficacy of the previously proposed pharmaceutical composition. This control has recourse to the inhibition of histamine synthesis. Consequently, the compositions of the invention contain an efficient quantity of an antihistamine compound which may optionally be associated with an inhibitor of histamine synthesis. Therefore, blocking of the terminal histamine effector mechanisms will provide efficient control over the final cascade of the allergic reaction. The terminal route for the synthesis and stimulation of histamine receptors must therefore be blocked in global manner for the composition to have improved efficacy.

[0046] A particular form of implementation of the invention consists in a anti-allergic pharmaceutical composition containing at least one antihistamine compound and at least one inhibitor of histamine synthesis, said compounds being associated in said composition with a pharmaceutically acceptable vehicle.

[0047] As inhibitors of histamine synthesis, mention may be made of an inhibitor of histidine decarboxylase as such tritoqualine.

[0048] By preventing histamine synthesis, the inhibitor of histidine decarboxylase increases the efficiency of the composition in its action on the downstream side of the allergies biological mechanism by complementing the antihistamine compound.

[0049] The compositions of the invention provide a new allergen approach providing preventive vaccination against the development of allergic illnesses. The objective being to restore a silent defence homeostasis to the body in relation to its environment.

[0050] The compositions of the invention contain a quantity of allergens in the order of 1 to 1500 μg and advantageously from 10 to 150 μg. Concerning the peptides, each one is advantageously present in proportions in the region of 1 to 1500 μg so as to slow down the immunological response leading to increased IgE synthesis.

[0051] The antihistamine compound is present in the compositions of the invention in a proportion of the order of 1 to 2000 mg.

[0052] In the case of a composition according to the invention containing a antihistamine compound and an inhibitor of histamine synthesis, these compounds are present in a proportion of the order of:

[0053] 5 to 200 mg of antihistamine compound,

[0054] 10 to 300 mg of an inhibitor of histidine decarboxylase as such tritoqualine.

[0055] The compositions of the invention may be presented in a form for transdermal application, for example an ointment for children, a form for oral administration, for example a slow release product, or in gastro-resistant tablet form or gum form. They may also be in spray or eye lotion form, or galenic forms with programmed mucosal and secondarily per os disintegration.

[0056] Therefore the different compositions of the invention can be administered by several routes chosen in accordance with the patient's pathological profile and age. For children, the patch form, syrup form or tablets to be dissolved in the mouth. The other forms, eye lotion or injection may also be used. In adults all galenic forms can be contemplated.

[0057] The advantage of a coupled form also provides simplicity of treatment, patient compliance with the simplified treatment and therefore a more successful outcome.

[0058] This solution also makes it possible to prevent the allergic illness and not only patent pathological conditions. Children of allergic parents could be the major target of this preventive treatment. The result would be shorter hospital stays, fewer antibiotic treatments, and improved quality of life. Indeed the TH2/TH1 switch must occur as early as possible in order to be effective, since in infants it is the TH2 route which predominates, responsible for hyper-response to the environment. The TH2/TH1 switch must occur early for its duration to be as long as possible, since antigenic stimulation by the antigens of the environment (dust mites and bacteria) are stimulators of the TH2 route.

[0059] Therefore the pharmaceutical composition of the invention is particularly useful for the preparation of a medicinal product intended to treat allergic hypersensitive reactions.

[0060] Advantageously, the pharmaceutical composition of the invention is in a galenic form with programmed mucosal or sublingual and secondarily per os disintegration.

[0061] The pharmaceutical composition of the invention is also useful for the preparation of a medicinal product intended to treat or prevent allergic hypersensitivity reactions, to treat or prevent allergic asthma, allergic rhinitis and atopic and allergic eczema.

[0062] Finally the pharmaceutical composition of the invention is particularly useful for the preparation of a medicinal product intended to treat or prevent allergic symptoms in children, infants and adults.

[0063] Other advantages and characteristics of the invention will become apparent on reading the clinical observations made in the treatment of allergic patients as recorded in the table given below.

[0064] These observations were made on approximately one hundred patients who were given a composition of the invention associating at least one allergen and an antihistamine compound.

[0065] Patient age ranged from 7 to 60 years. They all presented with at least one positive dust mite or pollen prick test, and symptomatology of rhinitis or asthma of at least one year's onset.

[0066] The pathological profile of the patients was classified according to the following typology comprising three descriptive categories: inflammation, secretion and the figured element.

[0067] Only clinical examination was used to classify inflammation. It was considered that there was inflammation if examination of the mucosa or target organs showed redness confirming an inflammatory phenomenon,

[0068] Secretion concerned the observation of an exudate whether purulent or non-purulent affecting a target organ (mucosa, skin, etc. . . . ).

[0069] The figured element concerned a change in the structure of the organ under consideration, which may occur in several pathological forms. Consideration was only given to the existence of a change without going into the detail of this change.

[0070] The grading of pathological severity used a scale of 1 to 4 measuring intensity as a fraction ¼ or ½ or a whole number.

[0071] Therefore, according to this grading, an assessment of ¼ denotes target organ impairment of between 0 and less than ¼. An assessment of ½ denotes target organ impairment of between ¼ and one half; an assessment of ¾ denotes target organ impairment of more than one half and less than ¾; an assessment of 1 denotes impairment of more than ¾.

[0072] A first category of target organs was graded according to this typology. It comprises the eyes, nose, pharynx, larynx and the skin.

[0073] In respect of the lungs, rating used the results of functional respiratory investigation expressed as a percentage relative to the normal value (using an international classification method taking into account age and size in particular).

[0074] The patients were given follow-up with at least one consultation at 2 months, 8 months, 12 months, 24 months. The course of the treatments followed and the number of units taken were analysed.

[0075] Table 1 below gives a clear indication of the very positive results obtained after a treatment time of approximately 8 months. A distinct improvement was noted in the pathological condition of the patients, with a drop in the overall clinical score for severity falling from an average value of 9.56 to 2.47, the standard deviation decreasing from 1.15 to 0.53, confirming the efficacy of the treatment in all patient age and sex groups. The mean number of affected target organs fell from 3.69 to 1.73, while the standard deviation in the number of target organs affected was reduced from 0.49 to 0.41. TABLE I 3^(rd) consultation after 8 Initial months' consulatation treatment N° N° of N° of Date of of target Total target Total Patient Date of initial test organs clinical organs clinical reference Sex birth consultation s + affected score affected score 1 M 1964 1996 3 3 7 2 2 2 F 1936 2000 4 3 6 1 2 3 F 1944 1993 8 4 10 2 2 4 F 1974 1997 8 4 9 1 3 5 F 1950 1997 8 4 9 2 3 6 M 1960 1997 7 4 8 1 2 7 F 1944 1996 4 3 6 2 2 8 F 1963 1993 4 5 10 1 2 9 M 1988 1993 7 4 8 2 2 10 M 1991 1993 3 4 9 1 2 11 M 1971 2000 6 3 9 1 2 12 M 1948 2000 3 4 9 1 2 13 M 1929 2000 3 3 7 2 2 14 M 1953 1999 5 4 9 1 1 15 F 1932 1994 10 4 10 1 2 16 F 1934 1996 8 6 11 2 2 17 F 1982 1993 5 4 10 2 2 18 F 1963 1994 4 4 10 2 2 19 M 1996 1996 4 4 10 1 3 20 F 1991 1997 5 4 10 2 3 21 F 1990 1996 7 3 8 1 2 22 F 1949 2000 4 4 8 2 3 23 M 1995 2000 3 2 6 1 2 24 F 1961 1994 8 3 8 1 2 25 M 1987 1994 7 4 9 2 3 26 F 1991 1995 8 3 8 1 2 27 M 1967 1994 7 3 9 2 2 28 M 1989 1994 7 4 9 2 3 29 M 1947 1999 5 4 9 2 2 30 F 1920 1999 2 3 8 1 2 31 F 1963 1997 6 4 9 2 2 32 M 1979 1998 4 4 9 1 2 33 F 1983 2000 3 3 8 2 2 34 M 1996 1999 7 4 8 2 2 35 F 1946 1995 7 3 8 2 3 36 F 1958 1995 5 4 10 2 2 37 F 1946 1997 6 4 11 2 2 38 F 1965 1993 3 3 9 1 2 39 M 1973 2000 7 4 9 2 2 40 M 1957 1995 5 4 9 2 2 41 F 1942 1995 8 4 9 2 2 42 F 1933 1999 4 3 9 1 3 43 F 1959 1999 4 3 8 2 3 44 F 1965 1999 3 4 10 2 2 45 F 1944 1999 3 4 10 2 3 46 F 1942 1996 6 4 11 1 3 47 F 1948 1997 6 4 11 2 3 48 F 1963 1999 4 4 10 2 2 49 M 1981 1999 5 4 12 2 2 50 M 1995 2000 5 4 12 2 2 51 M 1989 1999 5 4 10 2 2 52 M 1997 1998 4 4 10 2 3 53 F 1997 1998 5 4 9 1 3 54 F 1995 1997 4 4 10 2 3 55 F 1984 1993 3 3 9 1 2 56 M 1969 1996 10 4 12 2 3 57 M 1951 1996 11 4 11 2 2 58 M 1992 1997 5 4 11 2 3 59 M 1975 1994 4 3 9 1 2 60 M 1977 2000 5 4 12 2 3 61 M 1989 1993 5 4 12 2 3 62 M 1994 1998 8 4 11 2 3 63 F 1993 1998 7 4 10 2 2 64 F 1988 1993 3 3 9 2 3 65 F 1940 1999 4 4 11 2 2 72 F 1951 2000 6 4 11 2 3 73 F 1956 1999 5 4 11 2 3 74 M 1982 1994 4 3 9 2 3 75 F 1944 1998 3 4 12 2 2 76 F 1992 1997 7 3 9 2 3 77 M 1997 1993 4 3 9 1 3 78 F 1955 1997 5 4 10 2 3 79 F 1996 1999 4 3 8 2 3 80 F 1936 1993 5 4 10 1 2 81 M 1949 1998 5 3 10 2 2 82 M 1966 1993 4 3 9 2 2 83 F 1963 2000 5 4 10 1 2 84 F 1954 1993 5 4 11 2 2 85 F 1995 2000 4 3 9 2 3 86 M 1988 1994 6 3 8 2 2 87 F 1969 1997 6 4 9 2 3 88 M 1963 1993 5 4 9 2 2 89 M 1994 1998 7 4 10 1 3 90 F 1992 1997 6 3 9 3 3 91 M 1988 1999 6 4 11 2 3 92 M 1955 1993 6 4 11 2 3 93 M 1944 1996 7 4 13 2 3 94 M 1986 1994 6 4 12 2 3 95 M 1954 1996 6 4 11 2 3 96 F 1989 1993 6 4 12 2 2 97 M 1965 1995 6 3 8 2 3 98 M 1986 1994 4 3 9 2 4 99 F 1956 1995 4 4 10 2 3 100 F 1944 1993 2 3 9 1 3 101 F 1995 1998 5 3 9 2 4 102 M 1960 1996 3 3 8 2 3 103 F 1928 1995 6 4 10 2 3

[0076] Table II below gives the mean clinical score and the standard deviation in the scores obtained. TABLE II INITIAL VISIT AT VISIT 8 MONTHS MEAN CLINICAL SCORE 9.56 2.47 STANDARD DEVIATION IN SCORES 1.15 0.53

[0077] Table III below illustrates the average number of target organs affected and the standard deviation in the number of target organs affected. TABLE III VISIT INITIAL AT 8 VISIT MONTHS MEAN N° OF AFFECTED TARGET ORGANS 3.69 1.73 (T. 0.) STANDARD DEVIATION IN N° AFFECTED 0.49 0.41 T.Os.

[0078]

1 7 1 666 DNA Dermatophagoides pteronyssinus 1 actaacgcct gcagtatcaa tggaaatgct ccagctgaaa tcgatttgcg acaaatgcga 60 actgtcactc ccattcgtat gcaaggaggc tgtggttcat gttgggcttt ctctggtgtt 120 gccgcaactg aatcagctta tttggctcac cgtaatcaat cattggatct tgctgaacaa 180 gaattagtcg attgtgcttc ccaacacggt tgtcatggtg ataccattcc acgtggtatt 240 gaatacatcc aacataatgg tgtcgtccaa gaaagctact atcgatacgt tgcacgagaa 300 caatcatgcc gaccaccaaa tgcacaacgt ttcggtatct caaactattg ccaaatttac 360 ccaccaaatg caaacaaaat tcgtgaagct ttggctcaaa cccacagcgc tattgccgtc 420 attattggca tcaaagattt agacgcattc cgtcattatg atggccgaac aatcattcaa 480 cgcgataatg gttaccaacc aaactatcac gctgtcaaca ttgttggtta cagtaacgca 540 caaggtgtcg attattggat cgtacgaaac agttgggata ccaattgggg tgataatggt 600 tacggttatt ttgctgccaa catcgatttg atgatgattg aagaatatcc atatgttgtc 660 attctc 666 2 222 PRT Dermatophagoides pteronyssinus PEPTIDE (1)..(222) Peptide sequence from cystine protease. 2 Thr Asn Ala Cys Ser Ile Asn Gly Asn Ala Pro Ala Glu Ile Asp Leu 1 5 10 15 Arg Gln Met Arg Thr Val Thr Pro Ile Arg Met Gln Gly Gly Cys Gly 20 25 30 Ser Cys Trp Ala Phe Ser Gly Val Ala Ala Thr Glu Ser Ala Tyr Leu 35 40 45 Ala His Arg Asn Gln Ser Leu Asp Leu Ala Glu Gln Glu Leu Val Asp 50 55 60 Cys Ala Ser Gln His Gly Cys His Gly Asp Thr Ile Pro Arg Gly Ile 65 70 75 80 Glu Tyr Ile Gln His Asn Gly Val Val Gln Glu Ser Tyr Tyr Arg Tyr 85 90 95 Val Ala Arg Glu Gln Ser Cys Arg Arg Pro Asn Ala Gln Arg Phe Gly 100 105 110 Ile Ser Asn Tyr Cys Gln Ile Tyr Pro Pro Asn Ala Asn Lys Ile Arg 115 120 125 Glu Ala Leu Ala Gln Thr His Ser Ala Ile Ala Val Ile Ile Gly Ile 130 135 140 Lys Asp Leu Asp Ala Phe Arg His Tyr Asp Gly Arg Thr Ile Ile Gln 145 150 155 160 Arg Asp Asn Gly Tyr Gln Pro Asn Tyr His Ala Val Asn Ile Val Gly 165 170 175 Tyr Ser Asn Ala Gln Gly Val Asp Tyr Trp Ile Val Arg Asn Ser Trp 180 185 190 Asp Thr Asn Trp Gly Asp Asn Gly Tyr Gly Tyr Phe Ala Ala Asn Ile 195 200 205 Asp Leu Met Met Ile Glu Glu Tyr Pro Tyr Val Val Ile Leu 210 215 220 3 10 PRT Dermatophagoides pteronyssinus PEPTIDE (1)..(10) Comprises epitope from cystine protease. 3 Arg Met Gln Gly Gly Cys Gly Ser Cys Asn 1 5 10 4 10 PRT Dermatophagoides pteronyssinus peptide (1)..(10) Comprises epitope from cystine protease. 4 Gln Pro Asn Tyr His Ala Val Asn Ile Val 1 5 10 5 9 PRT Dermatophagoides pteronyssinus peptide (1)..(9) Comprises epitope from cystine protease. 5 Trp Thr Val Arg Asn Ser Trp Asp Thr 1 5 6 9 DNA Dermatophagoides pteronyssinus primer (1)..(9) 6 gcggcggcg 9 7 12 DNA Dermatophagoides pteronyssinus primer (1)..(12) 7 tgagcggcgg cg 12 

1) Anti-allergic pharmaceutical composition containing at least two active agents chosen among: (i) one allergen, (ii) one antihistamine compound, (iii) one inhibitor of histamine synthesis, said active agents being associated in said composition with a pharmaceutically acceptable vehicle. 2) Anti-allergic pharmaceutical composition according to claim 1, containing (i) at least one allergen and (ii) at least one antihistamine compound, and optionally (iii) at least one inhibitor of histamine synthesis, in a pharmaceutically acceptable vehicle. 3) Anti-allergic pharmaceutical composition according any of claims 1 or 2, characterized in that it contains (i) at least one allergen and (ii) at least one antihistamine compound, in a pharmaceutically acceptable vehicle, enabling release of the peptides and other chemical substances in independent manner at galenic level. 4) Pharmaceutical composition according to any of claims 1 to 3, characterized in that the allergen is chosen from among the major antigens or mixture of major antigens of acarids able to induce an immune reaction. 5) Pharmaceutical composition according to any of claims 1 to 4, characterized in that the allergen is a major antigen of D. Pteronyssiinus and/or D. Farinae. 6) Pharmaceutical composition according to any of claims 1 to 5, characterized in that the allergen is a cystine protease. 7) Pharmaceutical composition according to any of the preceding claims, characterized in that the allergen is at least a peptide epitope of a cystine protease. 8) Pharmaceutical composition according to any of the preceding claims, characterized in that the allergen is at least a peptide epitope of a cystine protease whose amino acid sequence is chosen from among SEQ ID NO: 1 and SEQ ID NO: 2 in the list of appended sequences. 9) Pharmaceutical composition according to any of the preceding claims, characterized in that the allergen is a peptide or mixture of peptides chosen from the group comprising the peptides of sequences SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5 in the list of appended sequences. 10) Pharmaceutical composition according to any of the preceding claims, characterized in that the antihistamine compound is chosen from the group comprising: brompheniramine, cetirizine, fexofenadine, cyproheptadine, dexchlorpheniramine, hydroxizine, ketotifene, loratidine, mequitazine, oxotomide, mizolastine, ebastine, astemizole, carbinoxamide, alimemazine, buclizine, cyclizine hydrochlorate, doxylamine. 11) Anti-allergic pharmaceutical composition according any of claims 1 or 2, characterized in that it contains at least one antihistamine compound and at least one inhibitor of histamine synthesis, said compounds being associated in said composition with a pharmaceutically acceptable vehicle. 12) Pharmaceutical composition according to claim 11, characterized in that the inhibitor of histamine synthesis is an inhibitor of histidine decarboxylase. 13) Pharmaceutical composition according to claim 12, characterized in that the inhibitor of histidine decarboxylase is tritoqualine. 14) Pharmaceutical composition according to any of claims 1 to 10, characterized in that it contains a quantity of allergen of the order of 1 to 1500 μg, and advantageously from 10 to 150 μg. 15) Pharmaceutical composition according to any of the preceding claims, characterized in that it contains a quantity of antihistamine compound of the order of 1 to 2000 mg, and advantageously from 5 to 200 mg. 16) Pharmaceutical composition according to any of claims 1 to 15, characterized in that it contains an inhibitor of histamine synthesis. 17) Pharmaceutical composition according to claim 16, characterized in that it contains a quantity of inhibitor of histamine synthesis of between 1 and 2000 mg. 18) Pharmaceutical composition according any of claims 11 to 13, characterized in that it contains from 5 to 200 mg of an antihistamine compound and from 10 to 300 mg of an inhibitor of histidine decarboxylase such as tritoqualine. 19) Pharmaceutical composition according to any of claims 1 to 10 or 14, characterized in that it comprises a nucleotide primer sequence SEQ ID NO: 6 in the list of appended sequences including an epigenic sequence of the major protein of the acarid, in lieu and stead of the composition containing the major protein of the acarid. 20) Pharmaceutical composition according to any of claims 1 to 10 or 14 or 19, characterized in that it comprises a nucleotide primer sequence according to sequence SEQ ID NO: 6 in the list of appended sequences including an epigenic sequence of at least one epitope of the major allergen of the acarid in lieu and stead of the composition containing the major protein of the acarid. 21) Pharmaceutical composition according to claim 20, characterized in that it comprises nucleotide primer sequences according to sequence SEQ ID NO: 6 in the list of appended sequences including in alternate manner at least two epigenic sequences of at least one epitope of the major allergen of the acarid in lieu and stead of the composition containing the major protein of the acarid. 22) Pharmaceutical composition according to any of claims 1 to 10 or 14, characterized in that it comprises a nucleotide primer sequence SEQ ID NO 7 in the list of appended sequences including an epigenic sequence of the major protein of the acarid, in lieu and stead of the composition containing the major protein of the acarid. 23) Pharmaceutical composition according to any of claims 1 to 10 or 14 or 22, characterized in that it comprises a nucleotide primer sequence according to sequence SEQ ID NO: 7 in the list of appended sequences including an epigenic sequence of at least one epitope of the major allergen of the acarid in lieu and stead of the composition containing the major protein of the acarid. 24) Pharmaceutical composition according to claim 23, characterized in that it comprises nucleotide primer sequences according to sequence SEQ ID NO: 7 in the list of appended sequences including in alternate manner at least two epigenic sequences of at least one epitope of the major allergen of the acarid in lieu and stead of the composition containing the major protein of the acarid. 25) Pharmaceutical composition according to any of claims 1 to 10 or 14, characterized in that it comprises an RNA sequence enabling the coding of the major protein of the acarid in lieu and stead of the composition containing the major protein of the acarid. 26) Pharmaceutical composition according to any of the preceding claims, characterized in that it permits the TH2/TH1 switch and reduction of the allergic reaction both on the upstream phase (IgE synthesis) and on the downstream phase (synthesis and release of histamine). 27) Pharmaceutical composition according to any of the preceding claims, characterized in that it is released in the form of a transcutaneous patch to allow better access of the allergens used and/or their epitopes to the antigen-presenting cells. 28) Pharmaceutical composition according to any of the preceding claims characterized in that it is released in mucosal, eye lotion, nasal spray or bronchial form. 29) Pharmaceutical composition according to any of the preceding claims characterized in that it is released in a galenical form with programmed mucosal or sublingual and secondarily per os disintegration. 30) Pharmaceutical composition according to any of the preceding claims for the preparation of a medicinal product intended to treat or prevent allergic hypersensitive reactions. 31) Pharmaceutical composition according to any of the preceding claims for the preparation of a medicinal product intended to treat or prevent allergic asthma, allergic rhinitis, atopic and allergic eczema. 32) Pharmaceutical composition according to any of the preceding claims for the preparation of a medicinal product intended to treat or prevent allergic symptoms in children, infants and adults. 